{- | A rich user interface for line input in command-line programs. Haskeline is Unicode-aware and runs both on POSIX-compatible systems and on Windows. Users may customize the interface with a @~/.haskeline@ file; see <http://trac.haskell.org/haskeline/wiki/UserPrefs> for more information. An example use of this library for a simple read-eval-print loop (REPL) is the following: > import System.Console.Haskeline > > main :: IO () > main = runInputT defaultSettings loop > where > loop :: InputT IO () > loop = do > minput <- getInputLine "% " > case minput of > Nothing -> return () > Just "quit" -> return () > Just input -> do outputStrLn $ "Input was: " ++ input > loop -} module System.Console.Haskeline( -- * Interactive sessions -- ** The InputT monad transformer InputT, runInputT, haveTerminalUI, mapInputT, -- ** Behaviors Behavior, runInputTBehavior, defaultBehavior, useFileHandle, useFile, preferTerm, -- * User interaction functions -- ** Reading user input -- $inputfncs getInputLine, getInputLineWithInitial, getInputChar, getPassword, -- ** Outputting text -- $outputfncs outputStr, outputStrLn, getExternalPrint, -- * Customization -- ** Settings Settings(..), defaultSettings, setComplete, -- ** User preferences Prefs(), readPrefs, defaultPrefs, runInputTWithPrefs, runInputTBehaviorWithPrefs, -- ** History -- $history getHistory, putHistory, modifyHistory, -- * Ctrl-C handling withInterrupt, Interrupt(..), handleInterrupt, -- * Additional submodules module System.Console.Haskeline.Completion, module System.Console.Haskeline.MonadException) where import System.Console.Haskeline.LineState import System.Console.Haskeline.Command import System.Console.Haskeline.Vi import System.Console.Haskeline.Emacs import System.Console.Haskeline.Prefs import System.Console.Haskeline.History import System.Console.Haskeline.Monads import System.Console.Haskeline.MonadException import System.Console.Haskeline.InputT import System.Console.Haskeline.Completion import System.Console.Haskeline.Term import System.Console.Haskeline.Key import System.Console.Haskeline.RunCommand import System.IO import Data.Char (isSpace, isPrint) -- | A useful default. In particular: -- -- @ -- defaultSettings = Settings { -- complete = completeFilename, -- historyFile = Nothing, -- autoAddHistory = True -- } -- @ defaultSettings :: MonadIO m => Settings m defaultSettings = Settings {complete = completeFilename, historyFile = Nothing, autoAddHistory = True} {- $outputfncs The following functions enable cross-platform output of text that may contain Unicode characters. -} -- | Write a Unicode string to the user's standard output. outputStr :: MonadIO m => String -> InputT m () outputStr xs = do putter <- InputT $ asks putStrOut liftIO $ putter xs -- | Write a string to the user's standard output, followed by a newline. outputStrLn :: MonadIO m => String -> InputT m () outputStrLn = outputStr . (++ "\n") {- $inputfncs The following functions read one line or character of input from the user. When using terminal-style interaction, these functions return 'Nothing' if the user pressed @Ctrl-D@ when the input text was empty. When using file-style interaction, these functions return 'Nothing' if an @EOF@ was encountered before any characters were read. -} {- | Reads one line of input. The final newline (if any) is removed. When using terminal-style interaction, this function provides a rich line-editing user interface. If @'autoAddHistory' == 'True'@ and the line input is nonblank (i.e., is not all spaces), it will be automatically added to the history. -} getInputLine :: MonadException m => String -- ^ The input prompt -> InputT m (Maybe String) getInputLine = promptedInput (getInputCmdLine emptyIM) $ runMaybeT . getLocaleLine {- | Reads one line of input and fills the insertion space with initial text. When using terminal-style interaction, this function provides a rich line-editing user interface with the added ability to give the user default values. This function behaves in the exact same manner as 'getInputLine', except that it pre-populates the input area. The text that resides in the input area is given as a 2-tuple with two 'String's. The string on the left of the tuple (obtained by calling 'fst') is what will appear to the left of the cursor and the string on the right (obtained by calling 'snd') is what will appear to the right of the cursor. Some examples of calling of this function are: > getInputLineWithInitial "prompt> " ("left", "") -- The cursor starts at the end of the line. > getInputLineWithInitial "prompt> " ("left ", "right") -- The cursor starts before the second word. -} getInputLineWithInitial :: MonadException m => String -- ^ The input prompt -> (String, String) -- ^ The initial value left and right of the cursor -> InputT m (Maybe String) getInputLineWithInitial prompt (left,right) = promptedInput (getInputCmdLine initialIM) (runMaybeT . getLocaleLine) prompt where initialIM = insertString left $ moveToStart $ insertString right $ emptyIM getInputCmdLine :: MonadException m => InsertMode -> TermOps -> String -> InputT m (Maybe String) getInputCmdLine initialIM tops prefix = do emode <- InputT $ asks editMode result <- runInputCmdT tops $ case emode of Emacs -> runCommandLoop tops prefix emacsCommands initialIM Vi -> evalStateT' emptyViState $ runCommandLoop tops prefix viKeyCommands initialIM maybeAddHistory result return result maybeAddHistory :: forall m . MonadIO m => Maybe String -> InputT m () maybeAddHistory result = do settings :: Settings m <- InputT ask histDupes <- InputT $ asks historyDuplicates case result of Just line | autoAddHistory settings && not (all isSpace line) -> let adder = case histDupes of AlwaysAdd -> addHistory IgnoreConsecutive -> addHistoryUnlessConsecutiveDupe IgnoreAll -> addHistoryRemovingAllDupes in modifyHistory (adder line) _ -> return () ---------- {- | Reads one character of input. Ignores non-printable characters. When using terminal-style interaction, the character will be read without waiting for a newline. When using file-style interaction, a newline will be read if it is immediately available after the input character. -} getInputChar :: MonadException m => String -- ^ The input prompt -> InputT m (Maybe Char) getInputChar = promptedInput getInputCmdChar $ \fops -> do c <- getPrintableChar fops maybeReadNewline fops return c getPrintableChar :: FileOps -> IO (Maybe Char) getPrintableChar fops = do c <- runMaybeT $ getLocaleChar fops case fmap isPrint c of Just False -> getPrintableChar fops _ -> return c getInputCmdChar :: MonadException m => TermOps -> String -> InputT m (Maybe Char) getInputCmdChar tops prefix = runInputCmdT tops $ runCommandLoop tops prefix acceptOneChar emptyIM acceptOneChar :: Monad m => KeyCommand m InsertMode (Maybe Char) acceptOneChar = choiceCmd [useChar $ \c s -> change (insertChar c) s >> return (Just c) , ctrlChar 'l' +> clearScreenCmd >|> keyCommand acceptOneChar , ctrlChar 'd' +> failCmd] ---------- -- Passwords {- | Reads one line of input, without displaying the input while it is being typed. When using terminal-style interaction, the masking character (if given) will replace each typed character. When using file-style interaction, this function turns off echoing while reading the line of input. -} getPassword :: MonadException m => Maybe Char -- ^ A masking character; e.g., @Just \'*\'@ -> String -> InputT m (Maybe String) getPassword x = promptedInput (\tops prefix -> runInputCmdT tops $ runCommandLoop tops prefix loop $ Password [] x) (\fops -> let h_in = inputHandle fops in bracketSet (hGetEcho h_in) (hSetEcho h_in) False $ runMaybeT $ getLocaleLine fops) where loop = choiceCmd [ simpleChar '\n' +> finish , simpleKey Backspace +> change deletePasswordChar >|> loop' , useChar $ \c -> change (addPasswordChar c) >|> loop' , ctrlChar 'd' +> \p -> if null (passwordState p) then failCmd p else finish p , ctrlChar 'l' +> clearScreenCmd >|> loop' ] loop' = keyCommand loop {- $history The 'InputT' monad transformer provides direct, low-level access to the user's line history state. However, for most applications, it should suffice to just use the 'autoAddHistory' and 'historyFile' flags. -} ------- -- | Wrapper for input functions. -- This is the function that calls "wrapFileInput" around file backend input -- functions (see Term.hs). promptedInput :: MonadIO m => (TermOps -> String -> InputT m a) -> (FileOps -> IO a) -> String -> InputT m a promptedInput doTerm doFile prompt = do -- If other parts of the program have written text, make sure that it -- appears before we interact with the user on the terminal. liftIO $ hFlush stdout rterm <- InputT ask case termOps rterm of Right fops -> liftIO $ do putStrOut rterm prompt wrapFileInput fops $ doFile fops Left tops -> do -- If the prompt contains newlines, print all but the last line. let (lastLine,rest) = break (`elem` "\r\n") $ reverse prompt outputStr $ reverse rest doTerm tops $ reverse lastLine {- | If Ctrl-C is pressed during the given action, throw an exception of type 'Interrupt'. For example: > tryAction :: InputT IO () > tryAction = handle (\Interrupt -> outputStrLn "Cancelled.") > $ withInterrupt $ someLongAction The action can handle the interrupt itself; a new 'Interrupt' exception will be thrown every time Ctrl-C is pressed. > tryAction :: InputT IO () > tryAction = withInterrupt loop > where loop = handle (\Interrupt -> outputStrLn "Cancelled; try again." >> loop) > someLongAction This behavior differs from GHC's built-in Ctrl-C handling, which may immediately terminate the program after the second time that the user presses Ctrl-C. -} withInterrupt :: MonadException m => InputT m a -> InputT m a withInterrupt act = do rterm <- InputT ask liftIOOp_ (wrapInterrupt rterm) act -- | Catch and handle an exception of type 'Interrupt'. -- -- > handleInterrupt f = handle $ \Interrupt -> f handleInterrupt :: MonadException m => m a -> m a -> m a handleInterrupt f = handle $ \Interrupt -> f {- | Return a printing function, which in terminal-style interactions is thread-safe and may be run concurrently with user input without affecting the prompt. -} getExternalPrint :: MonadException m => InputT m (String -> IO ()) getExternalPrint = do rterm <- InputT ask return $ case termOps rterm of Right _ -> putStrOut rterm Left tops -> externalPrint tops